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/*******************************************************************************
 * Copyright (c) 2000, 2021 IBM Corporation and others.
 *
 * This program and the accompanying materials
 * are made available under the terms of the Eclipse Public License 2.0
 * which accompanies this distribution, and is available at
 * https://www.eclipse.org/legal/epl-2.0/
 *
 * SPDX-License-Identifier: EPL-2.0
 *
 * Contributors:
 *     IBM Corporation - initial API and implementation
 *     Stephan Herrmann - Contributions for
 *								bug 186342 - [compiler][null] Using annotations for null checking
 *								bug 367203 - [compiler][null] detect assigning null to nonnull argument
 *								bug 365519 - editorial cleanup after bug 186342 and bug 365387
 *								bug 365662 - [compiler][null] warn on contradictory and redundant null annotations
 *								bug 365531 - [compiler][null] investigate alternative strategy for internally encoding nullness defaults
 *								bug 388281 - [compiler][null] inheritance of null annotations as an option
 *								Bug 392099 - [1.8][compiler][null] Apply null annotation on types for null analysis
 *								Bug 417295 - [1.8[[null] Massage type annotated null analysis to gel well with deep encoded type bindings.
 *								Bug 400874 - [1.8][compiler] Inference infrastructure should evolve to meet JLS8 18.x (Part G of JSR335 spec)
 *								Bug 425152 - [1.8] [compiler] Lambda Expression not resolved but flow analyzed leading to NPE.
 *								Bug 423505 - [1.8] Implement "18.5.4 More Specific Method Inference"
 *								Bug 429958 - [1.8][null] evaluate new DefaultLocation attribute of @NonNullByDefault
 *								Bug 438012 - [1.8][null] Bogus Warning: The nullness annotation is redundant with a default that applies to this location
 *								Bug 440759 - [1.8][null] @NonNullByDefault should never affect wildcards and uses of a type variable
 *								Bug 443347 - [1.8][null] @NonNullByDefault should not affect constructor arguments of an anonymous instantiation
 *								Bug 435805 - [1.8][compiler][null] Java 8 compiler does not recognize declaration style null annotations
 *								Bug 466713 - Null Annotations: NullPointerException using  as Type Param
 *								Bug 456584 - [1.8][null] Bogus warning for return type variable's @NonNull annotation being 'redundant'
 *								Bug 471611 - Error on hover on call to generic method with null annotation
 *     Jesper Steen Moller - Contributions for
 *								Bug 412150 [1.8] [compiler] Enable reflected parameter names during annotation processing
 *******************************************************************************/
package org.eclipse.jdt.internal.compiler.lookup;

import java.util.List;

import org.eclipse.jdt.core.compiler.CharOperation;
import org.eclipse.jdt.internal.compiler.ClassFile;
import org.eclipse.jdt.internal.compiler.ast.ASTNode;
import org.eclipse.jdt.internal.compiler.ast.AbstractMethodDeclaration;
import org.eclipse.jdt.internal.compiler.ast.Annotation;
import org.eclipse.jdt.internal.compiler.ast.Argument;
import org.eclipse.jdt.internal.compiler.ast.LambdaExpression;
import org.eclipse.jdt.internal.compiler.ast.MethodDeclaration;
import org.eclipse.jdt.internal.compiler.ast.RecordComponent;
import org.eclipse.jdt.internal.compiler.ast.TypeDeclaration;
import org.eclipse.jdt.internal.compiler.ast.TypeReference.AnnotationPosition;
import org.eclipse.jdt.internal.compiler.classfmt.ClassFileConstants;
import org.eclipse.jdt.internal.compiler.codegen.ConstantPool;
import org.eclipse.jdt.internal.compiler.impl.CompilerOptions;
import org.eclipse.jdt.internal.compiler.util.Util;

public class MethodBinding extends Binding {

	public int modifiers;
	public char[] selector;
	public TypeBinding returnType;
	public TypeBinding[] parameters;
	public TypeBinding receiver;  // JSR308 - explicit this parameter
	public ReferenceBinding[] thrownExceptions;
	public ReferenceBinding declaringClass;
	public TypeVariableBinding[] typeVariables = Binding.NO_TYPE_VARIABLES;
	char[] signature;
	public long tagBits;
	public int extendedTagBits = 0; // See values in the interface ExtendedTagBits
	// Used only for constructors
	protected AnnotationBinding [] typeAnnotations = Binding.NO_ANNOTATIONS;

	/** Store nullness information from annotation (incl. applicable default). */
	public Boolean[] parameterNonNullness;  // TRUE means @NonNull declared, FALSE means @Nullable declared, null means nothing declared
	public int defaultNullness; // for null *type* annotations

	/** Store parameter names from MethodParameters attribute (incl. applicable default). */
	public char[][] parameterNames = Binding.NO_PARAMETER_NAMES;

protected MethodBinding() {
	// for creating problem or synthetic method
}
public MethodBinding(int modifiers, char[] selector, TypeBinding returnType, TypeBinding[] parameters, ReferenceBinding[] thrownExceptions, ReferenceBinding declaringClass) {
	this.modifiers = modifiers;
	this.selector = selector;
	this.returnType = returnType;
	this.parameters = (parameters == null || parameters.length == 0) ? Binding.NO_PARAMETERS : parameters;
	this.thrownExceptions = (thrownExceptions == null || thrownExceptions.length == 0) ? Binding.NO_EXCEPTIONS : thrownExceptions;
	this.declaringClass = declaringClass;

	// propagate the strictfp & deprecated modifiers
	if (this.declaringClass != null) {
		if (this.declaringClass.isStrictfp())
			if (!(isNative() || isAbstract()))
				this.modifiers |= ClassFileConstants.AccStrictfp;
	}
}
public MethodBinding(int modifiers, TypeBinding[] parameters, ReferenceBinding[] thrownExceptions, ReferenceBinding declaringClass) {
	this(modifiers, TypeConstants.INIT, TypeBinding.VOID, parameters, thrownExceptions, declaringClass);
}
// special API used to change method declaring class for runtime visibility check
public MethodBinding(MethodBinding initialMethodBinding, ReferenceBinding declaringClass) {
	this.modifiers = initialMethodBinding.modifiers;
	this.selector = initialMethodBinding.selector;
	this.returnType = initialMethodBinding.returnType;
	this.parameters = initialMethodBinding.parameters;
	this.thrownExceptions = initialMethodBinding.thrownExceptions;
	this.declaringClass = declaringClass;
	declaringClass.storeAnnotationHolder(this, initialMethodBinding.declaringClass.retrieveAnnotationHolder(initialMethodBinding, true));
}
/* Answer true if the argument types & the receiver's parameters have the same erasure
*/
public final boolean areParameterErasuresEqual(MethodBinding method) {
	TypeBinding[] args = method.parameters;
	if (this.parameters == args)
		return true;

	int length = this.parameters.length;
	if (length != args.length)
		return false;

	for (int i = 0; i < length; i++)
		if (TypeBinding.notEquals(this.parameters[i], args[i]) && TypeBinding.notEquals(this.parameters[i].erasure(), args[i].erasure()))
			return false;
	return true;
}
/*
 * Returns true if given parameters are compatible with this method parameters.
 * Callers to this method should first check that the number of TypeBindings
 * passed as argument matches this MethodBinding number of parameters
 */
public final boolean areParametersCompatibleWith(TypeBinding[] arguments) {
	int paramLength = this.parameters.length;
	int argLength = arguments.length;
	int lastIndex = argLength;
	if (isVarargs()) {
		lastIndex = paramLength - 1;
		if (paramLength == argLength) { // accept X[] but not X or X[][]
			TypeBinding varArgType = this.parameters[lastIndex]; // is an ArrayBinding by definition
			TypeBinding lastArgument = arguments[lastIndex];
			if (TypeBinding.notEquals(varArgType, lastArgument) && !lastArgument.isCompatibleWith(varArgType))
				return false;
		} else if (paramLength < argLength) { // all remainig argument types must be compatible with the elementsType of varArgType
			TypeBinding varArgType = ((ArrayBinding) this.parameters[lastIndex]).elementsType();
			for (int i = lastIndex; i < argLength; i++)
				if (TypeBinding.notEquals(varArgType, arguments[i]) && !arguments[i].isCompatibleWith(varArgType))
					return false;
		} else if (lastIndex != argLength) { // can call foo(int i, X ... x) with foo(1) but NOT foo();
			return false;
		}
		// now compare standard arguments from 0 to lastIndex
	}
	for (int i = 0; i < lastIndex; i++)
		if (TypeBinding.notEquals(this.parameters[i], arguments[i]) && !arguments[i].isCompatibleWith(this.parameters[i]))
			return false;
	return true;
}
/* Answer true if the argument types & the receiver's parameters are equal
*/
public final boolean areParametersEqual(MethodBinding method) {
	TypeBinding[] args = method.parameters;
	if (this.parameters == args)
		return true;

	int length = this.parameters.length;
	if (length != args.length)
		return false;

	for (int i = 0; i < length; i++)
		if (TypeBinding.notEquals(this.parameters[i], args[i]))
			return false;
	return true;
}

/* API
* Answer the receiver's binding type from Binding.BindingID.
*/

/* Answer true if the type variables have the same erasure
*/
public final boolean areTypeVariableErasuresEqual(MethodBinding method) {
	TypeVariableBinding[] vars = method.typeVariables;
	if (this.typeVariables == vars)
		return true;

	int length = this.typeVariables.length;
	if (length != vars.length)
		return false;

	for (int i = 0; i < length; i++)
		if (TypeBinding.notEquals(this.typeVariables[i], vars[i]) && TypeBinding.notEquals(this.typeVariables[i].erasure(), vars[i].erasure()))
			return false;
	return true;
}
public MethodBinding asRawMethod(LookupEnvironment env) {
	if (this.typeVariables == Binding.NO_TYPE_VARIABLES) return this;

	// substitute type arguments with raw types
	int length = this.typeVariables.length;
	TypeBinding[] arguments = new TypeBinding[length];
	for (int i = 0; i < length; i++) {
		arguments[i] = makeRawArgument(env, this.typeVariables[i]);
	}
	return env.createParameterizedGenericMethod(this, arguments);
}
private TypeBinding makeRawArgument(LookupEnvironment env, TypeVariableBinding var) {
	if (var.boundsCount() <= 1) {
		TypeBinding upperBound = var.upperBound();
		if (upperBound.isTypeVariable())
			return makeRawArgument(env, (TypeVariableBinding) upperBound);
		return env.convertToRawType(upperBound, false /*do not force conversion of enclosing types*/);
	} else {
		// use an intersection type to retain full bound information if more than 1 bound
		TypeBinding[] itsSuperinterfaces = var.superInterfaces();
		int superLength = itsSuperinterfaces.length;
		TypeBinding rawFirstBound = null;
		TypeBinding[] rawOtherBounds = null;
		if (var.boundsCount() == superLength) {
			rawFirstBound = env.convertToRawType(itsSuperinterfaces[0], false);
			rawOtherBounds = new TypeBinding[superLength - 1];
			for (int s = 1; s < superLength; s++)
				rawOtherBounds[s - 1] = env.convertToRawType(itsSuperinterfaces[s], false);
		} else {
			rawFirstBound = env.convertToRawType(var.superclass(), false);
			rawOtherBounds = new TypeBinding[superLength];
			for (int s = 0; s < superLength; s++)
				rawOtherBounds[s] = env.convertToRawType(itsSuperinterfaces[s], false);
		}
		return env.createWildcard(null, 0, rawFirstBound, rawOtherBounds, org.eclipse.jdt.internal.compiler.ast.Wildcard.EXTENDS);
	}
}

/* Answer true if the receiver is visible to the type provided by the scope.
* InvocationSite implements isSuperAccess() to provide additional information
* if the receiver is protected.
*
* NOTE: This method should ONLY be sent if the receiver is a constructor.
*
* NOTE: Cannot invoke this method with a compilation unit scope.
*/

public final boolean canBeSeenBy(InvocationSite invocationSite, Scope scope) {
	if (isPublic()) return true;

	SourceTypeBinding invocationType = scope.enclosingSourceType();
	if (TypeBinding.equalsEquals(invocationType, this.declaringClass)) return true;

	if (isProtected()) {
		// answer true if the receiver is in the same package as the invocationType
		if (invocationType.fPackage == this.declaringClass.fPackage) return true;
		return invocationSite.isSuperAccess();
	}

	if (isPrivate()) {
		// answer true if the invocationType and the declaringClass have a common enclosingType
		// already know they are not the identical type
		ReferenceBinding outerInvocationType = invocationType;
		ReferenceBinding temp = outerInvocationType.enclosingType();
		while (temp != null) {
			outerInvocationType = temp;
			temp = temp.enclosingType();
		}

		ReferenceBinding outerDeclaringClass = (ReferenceBinding)this.declaringClass.erasure();
		temp = outerDeclaringClass.enclosingType();
		while (temp != null) {
			outerDeclaringClass = temp;
			temp = temp.enclosingType();
		}
		return TypeBinding.equalsEquals(outerInvocationType, outerDeclaringClass);
	}

	// isDefault()
	return invocationType.fPackage == this.declaringClass.fPackage;
}
public final boolean canBeSeenBy(PackageBinding invocationPackage) {
	if (isPublic()) return true;
	if (isPrivate()) return false;

	// isProtected() or isDefault()
	return invocationPackage == this.declaringClass.getPackage();
}

/* Answer true if the receiver is visible to the type provided by the scope.
* InvocationSite implements isSuperAccess() to provide additional information
* if the receiver is protected.
*
* NOTE: Cannot invoke this method with a compilation unit scope.
*/
public final boolean canBeSeenBy(TypeBinding receiverType, InvocationSite invocationSite, Scope scope) {

	SourceTypeBinding invocationType = scope.enclosingSourceType();
	if (this.declaringClass.isInterface() && isStatic() && !isPrivate()) {
		// Static interface methods can be explicitly invoked only through the type reference of the declaring interface or implicitly in the interface itself or via static import.
		if (scope.compilerOptions().sourceLevel < ClassFileConstants.JDK1_8)
			return false;
		if ((invocationSite.isTypeAccess() || invocationSite.receiverIsImplicitThis()) && TypeBinding.equalsEquals(receiverType, this.declaringClass))
			return true;
		return false;
	}

	if (isPublic()) return true;


	if (TypeBinding.equalsEquals(invocationType, this.declaringClass) && TypeBinding.equalsEquals(invocationType, receiverType)) return true;

	if (invocationType == null) // static import call
		return !isPrivate() && scope.getCurrentPackage() == this.declaringClass.fPackage;

	if (isProtected()) {
		// answer true if the invocationType is the declaringClass or they are in the same package
		// OR the invocationType is a subclass of the declaringClass
		//    AND the receiverType is the invocationType or its subclass
		//    OR the method is a static method accessed directly through a type
		//    OR previous assertions are true for one of the enclosing type
		if (TypeBinding.equalsEquals(invocationType, this.declaringClass)) return true;
		if (invocationType.fPackage == this.declaringClass.fPackage) return true;

		ReferenceBinding currentType = invocationType;
		TypeBinding receiverErasure = receiverType.erasure();
		ReferenceBinding declaringErasure = (ReferenceBinding) this.declaringClass.erasure();
		int depth = 0;
		do {
			if (currentType.findSuperTypeOriginatingFrom(declaringErasure) != null) {
				if (invocationSite.isSuperAccess())
					return true;
				// receiverType can be an array binding in one case... see if you can change it
				if (receiverType instanceof ArrayBinding)
					return false;
				if (isStatic()) {
					if (depth > 0) invocationSite.setDepth(depth);
					return true; // see 1FMEPDL - return invocationSite.isTypeAccess();
				}
				if (TypeBinding.equalsEquals(currentType, receiverErasure) || receiverErasure.findSuperTypeOriginatingFrom(currentType) != null) {
					if (depth > 0) invocationSite.setDepth(depth);
					return true;
				}
			}
			depth++;
			currentType = currentType.enclosingType();
		} while (currentType != null);
		return false;
	}

	if (isPrivate()) {
		// answer true if the receiverType is the declaringClass
		// AND the invocationType and the declaringClass have a common enclosingType
		receiverCheck: {
			if (TypeBinding.notEquals(receiverType, this.declaringClass)) {
				// special tolerance for type variable direct bounds, but only if compliance <= 1.6, see: https://bugs.eclipse.org/bugs/show_bug.cgi?id=334622
				if (scope.compilerOptions().complianceLevel <= ClassFileConstants.JDK1_6 && receiverType.isTypeVariable() && ((TypeVariableBinding) receiverType).isErasureBoundTo(this.declaringClass.erasure()))
					break receiverCheck;
				return false;
			}
		}

		if (TypeBinding.notEquals(invocationType, this.declaringClass)) {
			ReferenceBinding outerInvocationType = invocationType;
			ReferenceBinding temp = outerInvocationType.enclosingType();
			while (temp != null) {
				outerInvocationType = temp;
				temp = temp.enclosingType();
			}

			ReferenceBinding outerDeclaringClass = (ReferenceBinding)this.declaringClass.erasure();
			temp = outerDeclaringClass.enclosingType();
			while (temp != null) {
				outerDeclaringClass = temp;
				temp = temp.enclosingType();
			}
			if (TypeBinding.notEquals(outerInvocationType, outerDeclaringClass)) return false;
		}
		return true;
	}

	// isDefault()
	PackageBinding declaringPackage = this.declaringClass.fPackage;
	if (invocationType.fPackage != declaringPackage) return false;

	// receiverType can be an array binding in one case... see if you can change it
	if (receiverType instanceof ArrayBinding)
		return false;
	TypeBinding originalDeclaringClass = this.declaringClass.original();
	ReferenceBinding currentType = (ReferenceBinding) (receiverType);
	do {
		if (currentType.isCapture()) { // https://bugs.eclipse.org/bugs/show_bug.cgi?id=285002
			if (TypeBinding.equalsEquals(originalDeclaringClass, currentType.erasure().original())) return true;
		} else {
			if (TypeBinding.equalsEquals(originalDeclaringClass, currentType.original())) return true;
		}
		PackageBinding currentPackage = currentType.fPackage;
		// package could be null for wildcards/intersection types, ignore and recurse in superclass
		if (!currentType.isCapture() && currentPackage != null && currentPackage != declaringPackage) return false;
	} while ((currentType = currentType.superclass()) != null);
	return false;
}

public List collectMissingTypes(List missingTypes) {
	if ((this.tagBits & TagBits.HasMissingType) != 0) {
		missingTypes = this.returnType.collectMissingTypes(missingTypes);
		for (int i = 0, max = this.parameters.length; i < max; i++) {
			missingTypes = this.parameters[i].collectMissingTypes(missingTypes);
		}
		for (int i = 0, max = this.thrownExceptions.length; i < max; i++) {
			missingTypes = this.thrownExceptions[i].collectMissingTypes(missingTypes);
		}
		for (int i = 0, max = this.typeVariables.length; i < max; i++) {
			TypeVariableBinding variable = this.typeVariables[i];
			missingTypes = variable.superclass().collectMissingTypes(missingTypes);
			ReferenceBinding[] interfaces = variable.superInterfaces();
			for (int j = 0, length = interfaces.length; j < length; j++) {
				missingTypes = interfaces[j].collectMissingTypes(missingTypes);
			}
		}
	}
	return missingTypes;
}

public MethodBinding computeSubstitutedMethod(MethodBinding method, LookupEnvironment env) {
	int length = this.typeVariables.length;
	TypeVariableBinding[] vars = method.typeVariables;
	if (length != vars.length)
		return null;

	// must substitute to detect cases like:
	//   > void dup() {}
	//   > Object dup() {return null;}
	ParameterizedGenericMethodBinding substitute =
		env.createParameterizedGenericMethod(method, this.typeVariables);
	for (int i = 0; i < length; i++)
		if (!this.typeVariables[i].isInterchangeableWith(vars[i], substitute))
			return null;
	return substitute;
}

/*
 * declaringUniqueKey dot selector genericSignature
 * p.X {  void bar(X t) } --> Lp/X;.bar(LX;)V
 */
@Override
public char[] computeUniqueKey(boolean isLeaf) {
	// declaring class
	char[] declaringKey = this.declaringClass.computeUniqueKey(false/*not a leaf*/);
	int declaringLength = declaringKey.length;

	// selector
	int selectorLength = this.selector == TypeConstants.INIT ? 0 : this.selector.length;

	// generic signature
	char[] sig = genericSignature();
	boolean isGeneric = sig != null;
	if (!isGeneric) sig = signature();
	int signatureLength = sig.length;

	// thrown exceptions
	int thrownExceptionsLength = this.thrownExceptions.length;
	int thrownExceptionsSignatureLength = 0;
	char[][] thrownExceptionsSignatures = null;
	boolean addThrownExceptions = thrownExceptionsLength > 0 && (!isGeneric || CharOperation.lastIndexOf('^', sig) < 0);
	if (addThrownExceptions) {
		thrownExceptionsSignatures = new char[thrownExceptionsLength][];
		for (int i = 0; i < thrownExceptionsLength; i++) {
			if (this.thrownExceptions[i] != null) {
				thrownExceptionsSignatures[i] = this.thrownExceptions[i].signature();
				thrownExceptionsSignatureLength += thrownExceptionsSignatures[i].length + 1;	// add one char for separator
			}
		}
	}

	char[] uniqueKey = new char[declaringLength + 1 + selectorLength + signatureLength + thrownExceptionsSignatureLength];
	int index = 0;
	System.arraycopy(declaringKey, 0, uniqueKey, index, declaringLength);
	index = declaringLength;
	uniqueKey[index++] = '.';
	System.arraycopy(this.selector, 0, uniqueKey, index, selectorLength);
	index += selectorLength;
	System.arraycopy(sig, 0, uniqueKey, index, signatureLength);
	if (thrownExceptionsSignatureLength > 0) {
		index += signatureLength;
		for (int i = 0; i < thrownExceptionsLength; i++) {
			char[] thrownExceptionSignature = thrownExceptionsSignatures[i];
			if (thrownExceptionSignature != null) {
				uniqueKey[index++] = '|';
				int length = thrownExceptionSignature.length;
				System.arraycopy(thrownExceptionSignature, 0, uniqueKey, index, length);
				index += length;
			}
		}
	}
	return uniqueKey;
}

/* Answer the receiver's constant pool name.
*
*  for constructors
*  for clinit methods
* or the source name of the method
*/
public final char[] constantPoolName() {
	return this.selector;
}

/**
 * After method verifier has finished, fill in missing @NonNull specification from the applicable default.
 * @param needToApplyParameterNonNullDefault
 * @param needToApplyReturnNonNullDefault
 */
protected void fillInDefaultNonNullness(AbstractMethodDeclaration sourceMethod, boolean needToApplyReturnNonNullDefault, ParameterNonNullDefaultProvider needToApplyParameterNonNullDefault) {
	if (this.parameterNonNullness == null)
		this.parameterNonNullness = new Boolean[this.parameters.length];
	boolean added = false;
	int length = this.parameterNonNullness.length;
	for (int i = 0; i < length; i++) {
		if(!needToApplyParameterNonNullDefault.hasNonNullDefaultForParam(i)) {
			continue;
		}
		if (this.parameters[i].isBaseType())
			continue;
		if (this.parameterNonNullness[i] == null) {
			added = true;
			this.parameterNonNullness[i] = Boolean.TRUE;
			if (sourceMethod != null) {
				sourceMethod.arguments[i].binding.tagBits |= TagBits.AnnotationNonNull;
			}
		} else if (sourceMethod != null && this.parameterNonNullness[i].booleanValue()) {
			sourceMethod.scope.problemReporter().nullAnnotationIsRedundant(sourceMethod, i);
		}
	}
	if (added)
		this.tagBits |= TagBits.HasParameterAnnotations;
	if(!needToApplyReturnNonNullDefault)
		return;
	if (   this.returnType != null
		&& !this.returnType.isBaseType()
		&& (this.tagBits & TagBits.AnnotationNullMASK) == 0)
	{
		this.tagBits |= TagBits.AnnotationNonNull;
	} else if (sourceMethod != null && (this.tagBits & TagBits.AnnotationNonNull) != 0) {
		sourceMethod.scope.problemReporter().nullAnnotationIsRedundant(sourceMethod, -1/*signifies method return*/);
	}
}

//pre: null annotation analysis is enabled
protected void fillInDefaultNonNullness18(AbstractMethodDeclaration sourceMethod, LookupEnvironment env) {
	MethodBinding original = original();
	if(original == null) {
		return;
	}
	ParameterNonNullDefaultProvider hasNonNullDefaultForParameter = hasNonNullDefaultForParameter(sourceMethod);
	if (hasNonNullDefaultForParameter.hasAnyNonNullDefault()) {
		boolean added = false;
		int length = this.parameters.length;
		for (int i = 0; i < length; i++) {
			if (!hasNonNullDefaultForParameter.hasNonNullDefaultForParam(i))
				continue;
			TypeBinding parameter = this.parameters[i];
			if (!original.parameters[i].acceptsNonNullDefault())
				continue;
			long existing = parameter.tagBits & TagBits.AnnotationNullMASK;
			if (existing == 0L) {
				added = true;
				if (!parameter.isBaseType()) {
					this.parameters[i] = env.createAnnotatedType(parameter, new AnnotationBinding[]{env.getNonNullAnnotation()});
					if (sourceMethod != null)
						sourceMethod.arguments[i].binding.type = this.parameters[i];
				}
			} else if (sourceMethod != null && (parameter.tagBits & TagBits.AnnotationNonNull) != 0
							&& sourceMethod.arguments[i].hasNullTypeAnnotation(AnnotationPosition.MAIN_TYPE)) {
				sourceMethod.scope.problemReporter().nullAnnotationIsRedundant(sourceMethod, i);
			}
		}
		if (added)
			this.tagBits |= TagBits.HasParameterAnnotations;
	}
	if (original.returnType != null && hasNonNullDefaultForReturnType(sourceMethod) && original.returnType.acceptsNonNullDefault()) {
		if ((this.returnType.tagBits & TagBits.AnnotationNullMASK) == 0) {
			this.returnType = env.createAnnotatedType(this.returnType, new AnnotationBinding[]{env.getNonNullAnnotation()});
		} else if (sourceMethod instanceof MethodDeclaration && (this.returnType.tagBits & TagBits.AnnotationNonNull) != 0
						&& ((MethodDeclaration)sourceMethod).hasNullTypeAnnotation(AnnotationPosition.MAIN_TYPE)) {
			sourceMethod.scope.problemReporter().nullAnnotationIsRedundant(sourceMethod, -1/*signifies method return*/);
		}
	}
}

public MethodBinding findOriginalInheritedMethod(MethodBinding inheritedMethod) {
	MethodBinding inheritedOriginal = inheritedMethod.original();
	TypeBinding superType = this.declaringClass.findSuperTypeOriginatingFrom(inheritedOriginal.declaringClass);
	if (superType == null || !(superType instanceof ReferenceBinding)) return null;

	if (TypeBinding.notEquals(inheritedOriginal.declaringClass, superType)) {
		// must find inherited method with the same substituted variables
		MethodBinding[] superMethods = ((ReferenceBinding) superType).getMethods(inheritedOriginal.selector, inheritedOriginal.parameters.length);
		for (int m = 0, l = superMethods.length; m < l; m++)
			if (superMethods[m].original() == inheritedOriginal)
				return superMethods[m];
	}
	return inheritedOriginal;
}

/**
 * 
 *(param1 ... paramN)returnType thrownException1 ... thrownExceptionP
 * T foo(T t) throws X   --->   (TT;)TT;LX;
 * void bar(X t)   -->   (LX;)V
 *  void bar(X t)   -->  (LX;)V
 * 
*/ public char[] genericSignature() { if ((this.modifiers & ExtraCompilerModifiers.AccGenericSignature) == 0) return null; StringBuilder sig = new StringBuilder(10); if (this.typeVariables != Binding.NO_TYPE_VARIABLES) { sig.append('<'); for (int i = 0, length = this.typeVariables.length; i < length; i++) { sig.append(this.typeVariables[i].genericSignature()); } sig.append('>'); } sig.append('('); for (int i = 0, length = this.parameters.length; i < length; i++) { sig.append(this.parameters[i].genericTypeSignature()); } sig.append(')'); if (this.returnType != null) sig.append(this.returnType.genericTypeSignature()); // only append thrown exceptions if any is generic/parameterized boolean needExceptionSignatures = false; int length = this.thrownExceptions.length; for (int i = 0; i < length; i++) { if((this.thrownExceptions[i].modifiers & ExtraCompilerModifiers.AccGenericSignature) != 0) { needExceptionSignatures = true; break; } } if (needExceptionSignatures) { for (int i = 0; i < length; i++) { sig.append('^'); sig.append(this.thrownExceptions[i].genericTypeSignature()); } } int sigLength = sig.length(); char[] genericSignature = new char[sigLength]; sig.getChars(0, sigLength, genericSignature, 0); return genericSignature; } public final int getAccessFlags() { return this.modifiers & (ExtraCompilerModifiers.AccJustFlag | ExtraCompilerModifiers.AccDefaultMethod); } @Override public AnnotationBinding[] getAnnotations() { MethodBinding originalMethod = original(); return originalMethod.declaringClass.retrieveAnnotations(originalMethod); } /** * Compute the tagbits for standard annotations. For source types, these could require * lazily resolving corresponding annotation nodes, in case of forward references. * @see org.eclipse.jdt.internal.compiler.lookup.Binding#getAnnotationTagBits() */ @Override public long getAnnotationTagBits() { MethodBinding originalMethod = original(); if ((originalMethod.tagBits & TagBits.AnnotationResolved) == 0 && originalMethod.declaringClass instanceof SourceTypeBinding) { ClassScope scope = ((SourceTypeBinding) originalMethod.declaringClass).scope; if (scope != null) { TypeDeclaration typeDecl = scope.referenceContext; AbstractMethodDeclaration methodDecl = typeDecl.declarationOf(originalMethod); if (methodDecl != null) ASTNode.resolveAnnotations(methodDecl.scope, methodDecl.annotations, originalMethod); CompilerOptions options = scope.compilerOptions(); if (options.isAnnotationBasedNullAnalysisEnabled) { long nullDefaultBits = this.defaultNullness; if (nullDefaultBits != 0 && this.declaringClass instanceof SourceTypeBinding) { Binding target = scope.checkRedundantDefaultNullness(this.defaultNullness, typeDecl.declarationSourceStart); if (target != null) { methodDecl.scope.problemReporter().nullDefaultAnnotationIsRedundant(methodDecl, methodDecl.annotations, target); } } } } } return originalMethod.tagBits; } /** * @return the default value for this annotation method or null if there is no default value */ public Object getDefaultValue() { MethodBinding originalMethod = original(); if ((originalMethod.tagBits & TagBits.DefaultValueResolved) == 0) { //The method has not been resolved nor has its class been resolved. //It can only be from a source type within compilation units to process. if (originalMethod.declaringClass instanceof SourceTypeBinding) { SourceTypeBinding sourceType = (SourceTypeBinding) originalMethod.declaringClass; if (sourceType.scope != null) { AbstractMethodDeclaration methodDeclaration = originalMethod.sourceMethod(); if (methodDeclaration != null && methodDeclaration.isAnnotationMethod()) { methodDeclaration.resolve(sourceType.scope); } } } originalMethod.tagBits |= TagBits.DefaultValueResolved; } AnnotationHolder holder = originalMethod.declaringClass.retrieveAnnotationHolder(originalMethod, true); return holder == null ? null : holder.getDefaultValue(); } /** * @return the annotations for each of the method parameters or null> * if there's no parameter or no annotation at all. */ public AnnotationBinding[][] getParameterAnnotations() { int length; if ((length = this.parameters.length) == 0) { return null; } MethodBinding originalMethod = original(); AnnotationHolder holder = originalMethod.declaringClass.retrieveAnnotationHolder(originalMethod, true); AnnotationBinding[][] allParameterAnnotations = holder == null ? null : holder.getParameterAnnotations(); if (allParameterAnnotations == null && (this.tagBits & TagBits.HasParameterAnnotations) != 0) { allParameterAnnotations = new AnnotationBinding[length][]; // forward reference to method, where param annotations have not yet been associated to method if (this.declaringClass instanceof SourceTypeBinding) { SourceTypeBinding sourceType = (SourceTypeBinding) this.declaringClass; if (sourceType.scope != null) { AbstractMethodDeclaration methodDecl = sourceType.scope.referenceType().declarationOf(originalMethod); for (int i = 0; i < length; i++) { Argument argument = methodDecl.arguments[i]; if (argument.annotations != null) { ASTNode.resolveAnnotations(methodDecl.scope, argument.annotations, argument.binding); allParameterAnnotations[i] = argument.binding.getAnnotations(); } else { allParameterAnnotations[i] = Binding.NO_ANNOTATIONS; } } } else { for (int i = 0; i < length; i++) { allParameterAnnotations[i] = Binding.NO_ANNOTATIONS; } } } else { for (int i = 0; i < length; i++) { allParameterAnnotations[i] = Binding.NO_ANNOTATIONS; } } setParameterAnnotations(allParameterAnnotations); } return allParameterAnnotations; } public TypeVariableBinding getTypeVariable(char[] variableName) { for (int i = this.typeVariables.length; --i >= 0;) if (CharOperation.equals(this.typeVariables[i].sourceName, variableName)) return this.typeVariables[i]; return null; } public TypeVariableBinding[] getAllTypeVariables(boolean isDiamond) { TypeVariableBinding[] allTypeVariables = this.typeVariables; if (isDiamond) { TypeVariableBinding[] classTypeVariables = this.declaringClass.typeVariables(); int l1 = allTypeVariables.length; int l2 = classTypeVariables.length; if (l1 == 0) { allTypeVariables = classTypeVariables; } else if (l2 != 0) { System.arraycopy(allTypeVariables, 0, allTypeVariables=new TypeVariableBinding[l1+l2], 0, l1); System.arraycopy(classTypeVariables, 0, allTypeVariables, l1, l2); } } return allTypeVariables; } /** * Returns true if method got substituted parameter types * (see ParameterizedMethodBinding) */ public boolean hasSubstitutedParameters() { return false; } /* Answer true if the return type got substituted. */ public boolean hasSubstitutedReturnType() { return false; } /* Answer true if the receiver is an abstract method */ public final boolean isAbstract() { return (this.modifiers & ClassFileConstants.AccAbstract) != 0; } /* Answer true if the receiver is a bridge method */ public final boolean isBridge() { return (this.modifiers & ClassFileConstants.AccBridge) != 0; } /* Answer true if the receiver is a constructor */ public final boolean isConstructor() { return this.selector == TypeConstants.INIT; } /* Answer true if the method is a canonical constructor */ public final boolean isCanonicalConstructor() { return (this.extendedTagBits & ExtendedTagBits.IsCanonicalConstructor) != 0; } /* Answer true if the receiver is a compact constructor */ public final boolean isCompactConstructor() { return (this.modifiers & ExtraCompilerModifiers.AccCompactConstructor) != 0; } /* Answer true if the receiver has default visibility */ public final boolean isDefault() { return !isPublic() && !isProtected() && !isPrivate(); } /* Answer true if the receiver is a system generated default abstract method */ public final boolean isDefaultAbstract() { return (this.modifiers & ExtraCompilerModifiers.AccDefaultAbstract) != 0; } /* Answer true if the receiver is a default method (Java 8 feature) */ public boolean isDefaultMethod() { return (this.modifiers & ExtraCompilerModifiers.AccDefaultMethod) != 0; } /* Answer true if the receiver is a deprecated method */ public final boolean isDeprecated() { return (this.modifiers & ClassFileConstants.AccDeprecated) != 0; } /* Answer true if the receiver is final and cannot be overridden */ public final boolean isFinal() { return (this.modifiers & ClassFileConstants.AccFinal) != 0; } /* Answer true if the receiver is implementing another method * in other words, it is overriding and concrete, and overriden method is abstract * Only set for source methods */ public final boolean isImplementing() { return (this.modifiers & ExtraCompilerModifiers.AccImplementing) != 0; } /* Answer true if the method is an implicit method - only for records */ public final boolean isImplicit() { return (this.extendedTagBits & ExtendedTagBits.isImplicit) != 0; } /* * Answer true if the receiver is a "public static void main(String[])" method */ public final boolean isMain() { if (this.selector.length == 4 && CharOperation.equals(this.selector, TypeConstants.MAIN) && ((this.modifiers & (ClassFileConstants.AccPublic | ClassFileConstants.AccStatic)) != 0) && TypeBinding.VOID == this.returnType && this.parameters.length == 1) { TypeBinding paramType = this.parameters[0]; if (paramType.dimensions() == 1 && paramType.leafComponentType().id == TypeIds.T_JavaLangString) { return true; } } return false; } /* Answer true if the receiver is a native method */ public final boolean isNative() { return (this.modifiers & ClassFileConstants.AccNative) != 0; } /* Answer true if the receiver is overriding another method * Only set for source methods */ public final boolean isOverriding() { return (this.modifiers & ExtraCompilerModifiers.AccOverriding) != 0; } /* Answer true if the receiver has private visibility */ public final boolean isPrivate() { return (this.modifiers & ClassFileConstants.AccPrivate) != 0; } /* Answer true if the receiver has private visibility or if any of its enclosing types do. */ public final boolean isOrEnclosedByPrivateType() { if ((this.modifiers & ClassFileConstants.AccPrivate) != 0) return true; return this.declaringClass != null && this.declaringClass.isOrEnclosedByPrivateType(); } /* Answer true if the receiver has protected visibility */ public final boolean isProtected() { return (this.modifiers & ClassFileConstants.AccProtected) != 0; } /* Answer true if the receiver has public visibility */ public final boolean isPublic() { return (this.modifiers & ClassFileConstants.AccPublic) != 0; } /* Answer true if the receiver is a static method */ public final boolean isStatic() { return (this.modifiers & ClassFileConstants.AccStatic) != 0; } /* Answer true if all float operations must adher to IEEE 754 float/double rules */ public final boolean isStrictfp() { return (this.modifiers & ClassFileConstants.AccStrictfp) != 0; } /* Answer true if the receiver is a synchronized method */ public final boolean isSynchronized() { return (this.modifiers & ClassFileConstants.AccSynchronized) != 0; } /* Answer true if the receiver has public visibility */ public final boolean isSynthetic() { return (this.modifiers & ClassFileConstants.AccSynthetic) != 0; } /* Answer true if the receiver has private visibility and is used locally */ public final boolean isUsed() { return (this.modifiers & ExtraCompilerModifiers.AccLocallyUsed) != 0; } /* Answer true if the receiver method has varargs */ public boolean isVarargs() { return (this.modifiers & ClassFileConstants.AccVarargs) != 0; } public boolean isParameterizedGeneric() { return false; } public boolean isPolymorphic() { return false; } /* Answer true if the receiver's declaring type is deprecated (or any of its enclosing types) */ public final boolean isViewedAsDeprecated() { return (this.modifiers & (ClassFileConstants.AccDeprecated | ExtraCompilerModifiers.AccDeprecatedImplicitly)) != 0; } @Override public final int kind() { return Binding.METHOD; } /* Answer true if the receiver is visible to the invocationPackage. */ /** * Returns the original method (as opposed to parameterized/polymorphic instances) */ public MethodBinding original() { return this; } /** * Strips one level of parameterization, so if both class & method are parameterized, * leave the class parameters in place. */ public MethodBinding shallowOriginal() { return original(); } public MethodBinding genericMethod() { return this; } @Override public char[] readableName() /* foo(int, Thread) */ { StringBuilder buffer = new StringBuilder(this.parameters.length + 1 * 20); if (isConstructor()) buffer.append(this.declaringClass.sourceName()); else buffer.append(this.selector); buffer.append('('); if (this.parameters != Binding.NO_PARAMETERS) { for (int i = 0, length = this.parameters.length; i < length; i++) { if (i > 0) buffer.append(", "); //$NON-NLS-1$ buffer.append(this.parameters[i].sourceName()); } } buffer.append(')'); return buffer.toString().toCharArray(); } final public AnnotationBinding[] getTypeAnnotations() { return this.typeAnnotations; } public void setTypeAnnotations(AnnotationBinding[] annotations) { this.typeAnnotations = annotations; } @Override public void setAnnotations(AnnotationBinding[] annotations, boolean forceStore) { this.declaringClass.storeAnnotations(this, annotations, forceStore); } public void setAnnotations(AnnotationBinding[] annotations, AnnotationBinding[][] parameterAnnotations, Object defaultValue, LookupEnvironment optionalEnv) { this.declaringClass.storeAnnotationHolder(this, AnnotationHolder.storeAnnotations(annotations, parameterAnnotations, defaultValue, optionalEnv)); } public void setDefaultValue(Object defaultValue) { MethodBinding originalMethod = original(); originalMethod.tagBits |= TagBits.DefaultValueResolved; AnnotationHolder holder = this.declaringClass.retrieveAnnotationHolder(this, false); if (holder == null) setAnnotations(null, null, defaultValue, null); else setAnnotations(holder.getAnnotations(), holder.getParameterAnnotations(), defaultValue, null); } public void setParameterAnnotations(AnnotationBinding[][] parameterAnnotations) { AnnotationHolder holder = this.declaringClass.retrieveAnnotationHolder(this, false); if (holder == null) setAnnotations(null, parameterAnnotations, null, null); else setAnnotations(holder.getAnnotations(), parameterAnnotations, holder.getDefaultValue(), null); } protected final void setSelector(char[] selector) { this.selector = selector; this.signature = null; } /** * @see org.eclipse.jdt.internal.compiler.lookup.Binding#shortReadableName() */ @Override public char[] shortReadableName() { StringBuilder buffer = new StringBuilder(this.parameters.length + 1 * 20); if (isConstructor()) buffer.append(this.declaringClass.shortReadableName()); else buffer.append(this.selector); buffer.append('('); if (this.parameters != Binding.NO_PARAMETERS) { for (int i = 0, length = this.parameters.length; i < length; i++) { if (i > 0) buffer.append(", "); //$NON-NLS-1$ buffer.append(this.parameters[i].shortReadableName()); } } buffer.append(')'); int nameLength = buffer.length(); char[] shortReadableName = new char[nameLength]; buffer.getChars(0, nameLength, shortReadableName, 0); return shortReadableName; } /* Answer the receiver's signature. * * NOTE: This method should only be used during/after code gen. * The signature is cached so if the signature of the return type or any parameter * type changes, the cached state is invalid. */ public final char[] signature() /* (ILjava/lang/Thread;)Ljava/lang/Object; */ { if (this.signature != null) return this.signature; StringBuilder buffer = new StringBuilder(this.parameters.length + 1 * 20); buffer.append('('); TypeBinding[] targetParameters = this.parameters; boolean isConstructor = isConstructor(); if (isConstructor && this.declaringClass.isEnum()) { // insert String name,int ordinal buffer.append(ConstantPool.JavaLangStringSignature); buffer.append(TypeBinding.INT.signature()); } boolean needSynthetics = isConstructor && this.declaringClass.isNestedType(); if (needSynthetics) { // take into account the synthetic argument type signatures as well ReferenceBinding[] syntheticArgumentTypes = this.declaringClass.syntheticEnclosingInstanceTypes(); if (syntheticArgumentTypes != null) { for (int i = 0, count = syntheticArgumentTypes.length; i < count; i++) { buffer.append(syntheticArgumentTypes[i].signature()); } } if ((this instanceof SyntheticMethodBinding) && (!this.declaringClass.isRecord())) { targetParameters = ((SyntheticMethodBinding)this).targetMethod.parameters; } } if (targetParameters != Binding.NO_PARAMETERS) { for (int i = 0; i < targetParameters.length; i++) { buffer.append(targetParameters[i].signature()); } } if (needSynthetics) { SyntheticArgumentBinding[] syntheticOuterArguments = this.declaringClass.syntheticOuterLocalVariables(); int count = syntheticOuterArguments == null ? 0 : syntheticOuterArguments.length; for (int i = 0; i < count; i++) { buffer.append(syntheticOuterArguments[i].type.signature()); } // move the extra padding arguments of the synthetic constructor invocation to the end for (int i = targetParameters.length, extraLength = this.parameters.length; i < extraLength; i++) { buffer.append(this.parameters[i].signature()); } } buffer.append(')'); if (this.returnType != null) buffer.append(this.returnType.signature()); int nameLength = buffer.length(); this.signature = new char[nameLength]; buffer.getChars(0, nameLength, this.signature, 0); return this.signature; } /* * This method is used to record references to nested types inside the method signature. * This is the one that must be used during code generation. * * See https://bugs.eclipse.org/bugs/show_bug.cgi?id=171184 */ public char[] signature(ClassFile classFile) { if (this.signature != null) { if ((this.tagBits & TagBits.ContainsNestedTypeReferences) != 0) { // we need to record inner classes references boolean isConstructor = isConstructor(); TypeBinding[] targetParameters = this.parameters; boolean needSynthetics = isConstructor && this.declaringClass.isNestedType() && !this.declaringClass.isStatic(); if (needSynthetics) { // take into account the synthetic argument type signatures as well ReferenceBinding[] syntheticArgumentTypes = this.declaringClass.syntheticEnclosingInstanceTypes(); if (syntheticArgumentTypes != null) { for (int i = 0, count = syntheticArgumentTypes.length; i < count; i++) { ReferenceBinding syntheticArgumentType = syntheticArgumentTypes[i]; if ((syntheticArgumentType.tagBits & TagBits.ContainsNestedTypeReferences) != 0) { Util.recordNestedType(classFile, syntheticArgumentType); } } } if (this instanceof SyntheticMethodBinding) { targetParameters = ((SyntheticMethodBinding)this).targetMethod.parameters; } } if (targetParameters != Binding.NO_PARAMETERS) { for (int i = 0, max = targetParameters.length; i < max; i++) { TypeBinding targetParameter = targetParameters[i]; TypeBinding leafTargetParameterType = targetParameter.leafComponentType(); if ((leafTargetParameterType.tagBits & TagBits.ContainsNestedTypeReferences) != 0) { Util.recordNestedType(classFile, leafTargetParameterType); } } } if (needSynthetics) { // move the extra padding arguments of the synthetic constructor invocation to the end for (int i = targetParameters.length, extraLength = this.parameters.length; i < extraLength; i++) { TypeBinding parameter = this.parameters[i]; TypeBinding leafParameterType = parameter.leafComponentType(); if ((leafParameterType.tagBits & TagBits.ContainsNestedTypeReferences) != 0) { Util.recordNestedType(classFile, leafParameterType); } } } if (this.returnType != null) { TypeBinding ret = this.returnType.leafComponentType(); if ((ret.tagBits & TagBits.ContainsNestedTypeReferences) != 0) { Util.recordNestedType(classFile, ret); } } } return this.signature; } StringBuilder buffer = new StringBuilder((this.parameters.length + 1) * 20); buffer.append('('); TypeBinding[] targetParameters = this.parameters; boolean isConstructor = isConstructor(); if (isConstructor && this.declaringClass.isEnum()) { // insert String name,int ordinal buffer.append(ConstantPool.JavaLangStringSignature); buffer.append(TypeBinding.INT.signature()); } boolean needSynthetics = isConstructor && this.declaringClass.isNestedType() && !this.declaringClass.isStatic(); if (needSynthetics) { // take into account the synthetic argument type signatures as well ReferenceBinding[] syntheticArgumentTypes = this.declaringClass.syntheticEnclosingInstanceTypes(); if (syntheticArgumentTypes != null) { for (int i = 0, count = syntheticArgumentTypes.length; i < count; i++) { ReferenceBinding syntheticArgumentType = syntheticArgumentTypes[i]; if ((syntheticArgumentType.tagBits & TagBits.ContainsNestedTypeReferences) != 0) { this.tagBits |= TagBits.ContainsNestedTypeReferences; Util.recordNestedType(classFile, syntheticArgumentType); } buffer.append(syntheticArgumentType.signature()); } } if (this instanceof SyntheticMethodBinding) { targetParameters = ((SyntheticMethodBinding)this).targetMethod.parameters; } } if (targetParameters != Binding.NO_PARAMETERS) { for (int i = 0, max = targetParameters.length; i < max; i++) { TypeBinding targetParameter = targetParameters[i]; TypeBinding leafTargetParameterType = targetParameter.leafComponentType(); if ((leafTargetParameterType.tagBits & TagBits.ContainsNestedTypeReferences) != 0) { this.tagBits |= TagBits.ContainsNestedTypeReferences; Util.recordNestedType(classFile, leafTargetParameterType); } buffer.append(targetParameter.signature()); } } if (needSynthetics) { SyntheticArgumentBinding[] syntheticOuterArguments = this.declaringClass.syntheticOuterLocalVariables(); int count = syntheticOuterArguments == null ? 0 : syntheticOuterArguments.length; for (int i = 0; i < count; i++) { buffer.append(syntheticOuterArguments[i].type.signature()); } // move the extra padding arguments of the synthetic constructor invocation to the end for (int i = targetParameters.length, extraLength = this.parameters.length; i < extraLength; i++) { TypeBinding parameter = this.parameters[i]; TypeBinding leafParameterType = parameter.leafComponentType(); if ((leafParameterType.tagBits & TagBits.ContainsNestedTypeReferences) != 0) { this.tagBits |= TagBits.ContainsNestedTypeReferences; Util.recordNestedType(classFile, leafParameterType); } buffer.append(parameter.signature()); } } buffer.append(')'); if (this.returnType != null) { TypeBinding ret = this.returnType.leafComponentType(); if ((ret.tagBits & TagBits.ContainsNestedTypeReferences) != 0) { this.tagBits |= TagBits.ContainsNestedTypeReferences; Util.recordNestedType(classFile, ret); } buffer.append(this.returnType.signature()); } int nameLength = buffer.length(); this.signature = new char[nameLength]; buffer.getChars(0, nameLength, this.signature, 0); return this.signature; } public final int sourceEnd() { AbstractMethodDeclaration method = sourceMethod(); if (method == null) { if (this.declaringClass instanceof SourceTypeBinding) return ((SourceTypeBinding) this.declaringClass).sourceEnd(); return 0; } return method.sourceEnd; } public AbstractMethodDeclaration sourceMethod() { if (isSynthetic()) { return null; } SourceTypeBinding sourceType; try { sourceType = (SourceTypeBinding) this.declaringClass; } catch (ClassCastException e) { return null; } AbstractMethodDeclaration[] methods = sourceType.scope != null ? sourceType.scope.referenceContext.methods : null; if (methods != null) { for (int i = methods.length; --i >= 0;) if (this == methods[i].binding) return methods[i]; } return null; } public LambdaExpression sourceLambda() { return null; } public RecordComponent sourceRecordComponent() { return null; } public final int sourceStart() { AbstractMethodDeclaration method = sourceMethod(); if (method == null) { if (this.declaringClass instanceof SourceTypeBinding) return ((SourceTypeBinding) this.declaringClass).sourceStart(); return 0; } return method.sourceStart; } /** * Returns the method to use during tiebreak (usually the method itself). * For generic method invocations, tiebreak needs to use generic method with erasure substitutes. */ public MethodBinding tiebreakMethod() { return this; } @Override public String toString() { StringBuffer output = new StringBuffer(10); if ((this.modifiers & ExtraCompilerModifiers.AccUnresolved) != 0) { output.append("[unresolved] "); //$NON-NLS-1$ } ASTNode.printModifiers(this.modifiers, output); output.append(this.returnType != null ? this.returnType.debugName() : ""); //$NON-NLS-1$ output.append(" "); //$NON-NLS-1$ output.append(this.selector != null ? new String(this.selector) : ""); //$NON-NLS-1$ output.append("("); //$NON-NLS-1$ if (this.parameters != null) { if (this.parameters != Binding.NO_PARAMETERS) { for (int i = 0, length = this.parameters.length; i < length; i++) { if (i > 0) output.append(", "); //$NON-NLS-1$ output.append(this.parameters[i] != null ? this.parameters[i].debugName() : ""); //$NON-NLS-1$ } } } else { output.append(""); //$NON-NLS-1$ } output.append(") "); //$NON-NLS-1$ if (this.thrownExceptions != null) { if (this.thrownExceptions != Binding.NO_EXCEPTIONS) { output.append("throws "); //$NON-NLS-1$ for (int i = 0, length = this.thrownExceptions.length; i < length; i++) { if (i > 0) output.append(", "); //$NON-NLS-1$ output.append((this.thrownExceptions[i] != null) ? this.thrownExceptions[i].debugName() : ""); //$NON-NLS-1$ } } } else { output.append(""); //$NON-NLS-1$ } return output.toString(); } public TypeVariableBinding[] typeVariables() { return this.typeVariables; } //pre: null annotation analysis is enabled public boolean hasNonNullDefaultForReturnType(AbstractMethodDeclaration srcMethod) { return hasNonNullDefaultFor(Binding.DefaultLocationReturnType, srcMethod, srcMethod == null ? -1 : srcMethod.declarationSourceStart); } static int getNonNullByDefaultValue(AnnotationBinding annotation) { ElementValuePair[] elementValuePairs = annotation.getElementValuePairs(); if (elementValuePairs == null || elementValuePairs.length == 0 ) { // no argument: apply default default ReferenceBinding annotationType = annotation.getAnnotationType(); if (annotationType == null) return 0; MethodBinding[] annotationMethods = annotationType.methods(); if (annotationMethods != null && annotationMethods.length == 1) { Object value = annotationMethods[0].getDefaultValue(); return Annotation.nullLocationBitsFromAnnotationValue(value); } return DefaultLocationsForTrueValue; // custom unconfigurable NNBD } else if (elementValuePairs.length > 0) { // evaluate the contained EnumConstantSignatures: int nullness = 0; for (int i = 0; i < elementValuePairs.length; i++) nullness |= Annotation.nullLocationBitsFromAnnotationValue(elementValuePairs[i].getValue()); return nullness; } else { // empty argument: cancel all defaults from enclosing scopes return NULL_UNSPECIFIED_BY_DEFAULT; } } //pre: null annotation analysis is enabled public ParameterNonNullDefaultProvider hasNonNullDefaultForParameter(AbstractMethodDeclaration srcMethod) { int len = this.parameters.length; boolean[] result = new boolean[len]; boolean trueFound = false; boolean falseFound = false; for (int i = 0; i < len; i++) { int start = srcMethod == null || srcMethod.arguments == null || srcMethod.arguments.length == 0 ? -1 : srcMethod.arguments[i].declarationSourceStart; int nonNullByDefaultValue = srcMethod != null && start >= 0 ? srcMethod.scope.localNonNullByDefaultValue(start) : 0; if (nonNullByDefaultValue == 0) { AnnotationBinding[][] parameterAnnotations = getParameterAnnotations(); if (parameterAnnotations != null) { AnnotationBinding[] annotationBindings = parameterAnnotations[i]; for (AnnotationBinding annotationBinding : annotationBindings) { ReferenceBinding annotationType = annotationBinding.getAnnotationType(); if (!annotationType.hasNullBit(TypeIds.BitNonNullByDefaultAnnotation)) { continue; } nonNullByDefaultValue |= getNonNullByDefaultValue(annotationBinding); } } } boolean b; if (nonNullByDefaultValue != 0) { // parameter specific NNBD found b = (nonNullByDefaultValue & Binding.DefaultLocationParameter) != 0; } else { b = hasNonNullDefaultFor(Binding.DefaultLocationParameter, srcMethod, start); } if (b) { trueFound = true; } else { falseFound = true; } result[i] = b; } if (trueFound && falseFound) { return new ParameterNonNullDefaultProvider.MixedProvider(result); } return trueFound ? ParameterNonNullDefaultProvider.TRUE_PROVIDER : ParameterNonNullDefaultProvider.FALSE_PROVIDER; } //pre: null annotation analysis is enabled private boolean hasNonNullDefaultFor(int location, AbstractMethodDeclaration srcMethod, int start) { if ((this.modifiers & ExtraCompilerModifiers.AccIsDefaultConstructor) != 0) return false; if (this.defaultNullness != 0) return (this.defaultNullness & location) != 0; return this.declaringClass.hasNonNullDefaultFor(location, start); } public boolean redeclaresPublicObjectMethod(Scope scope) { ReferenceBinding javaLangObject = scope.getJavaLangObject(); MethodBinding [] methods = javaLangObject.getMethods(this.selector); for (int i = 0, length = methods == null ? 0 : methods.length; i < length; i++) { final MethodBinding method = methods[i]; if (!method.isPublic() || method.isStatic() || method.parameters.length != this.parameters.length) continue; if (MethodVerifier.doesMethodOverride(this, method, scope.environment())) return true; } return false; } public boolean isVoidMethod() { return this.returnType == TypeBinding.VOID; } public boolean doesParameterLengthMatch(int suggestedParameterLength) { int len = this.parameters.length; return len <= suggestedParameterLength || (isVarargs() && len == suggestedParameterLength + 1); } public void updateTypeVariableBinding(TypeVariableBinding previousBinding, TypeVariableBinding updatedBinding) { TypeVariableBinding[] bindings = this.typeVariables; if (bindings != null) { for (int i = 0; i < bindings.length; i++) { if (bindings[i] == previousBinding) { //$IDENTITY-COMPARISON$ bindings[i] = updatedBinding; } } } } }




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